Cardiothoracic

NEW ORLEANS – In the first pivotal randomized, controlled trial of a transcatheter device for the repair of severe tricuspid regurgitation, a large reduction in valve dysfunction was associated with substantial improvement in quality of life (QOL) persisting out of 1 year of follow-up, according to results of the TRILUMINATE trial.

Based on the low procedural risks of the repair, the principal investigator, Paul Sorajja, MD, called the results “very clinically meaningful” as he presented the results at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Ted Bosworth/MDedge News

Conducted at 65 centers in the United States, Canada, and North America, TRILUMINATE evaluated a transcatheter end-to-end (TEER) repair performed with the TriClip G4 Delivery System (Abbott). The study included two cohorts, both of which will be followed for 5 years. One included patients with very severe tricuspid regurgitation enrolled in a single arm. Data on this cohort is expected later in 2023.

In the randomized portion of the study, 350 patients enrolled with severe tricuspid regurgitation underwent TEER with a clipping device and then were followed on the guideline-directed therapy (GDMT) for heart failure they were receiving at baseline. The control group was managed on GDMT alone.

The primary composite endpoint at 1 year was a composite of death from any cause and/or tricuspid valve surgery, hospitalization for heart failure, and quality of life as measured with the Kansas City Cardiomyopathy questionnaire (KCCQ).
 

Benefit driven by quality of life

For the primary endpoint, the win ratio, a statistical calculation of those who did relative to those who did not benefit, was 1.48, signifying a 48% advantage (P = .02). This was driven almost entirely by the KCCQ endpoint. There was no significant difference death and/or tricuspid valve surgery, which occurred in about 10% of both groups (P = .75) or heart failure hospitalization, which was occurred in slightly more patients randomized to repair (14.9% vs. 12.1%; P = .41).

For KCCQ, the mean increase at 1 year was 12.3 points in the repair group versus 0.6 points (P < .001) in the control group. With an increase of 5-10 points typically considered to be clinically meaningful, the advantage of repair over GDMT at the threshold of 15 points or greater was highly statistically significant (49.7% vs. 26.4%; P < .0001).

This advantage was attributed to control of regurgitation. The proportion achieving moderate or less regurgitation sustained at 1 year was 87% in the repair group versus 4.8% in the GDMT group (P < .0001).

When assessed independent of treatment, KCCQ benefits at 1 year increased in a stepwise fashion as severity of regurgitation was reduced, climbing from 2 points if there was no improvement to 6 points with one grade in improvement and then to 18 points with at least a two-grade improvement.

For regurgitation, “the repair was extremely effective,” said Dr. Sorajja of Allina Health Minneapolis Heart Institute at Abbott Northwestern Hospital, Minneapolis. He added that the degree of regurgitation control in the TRILUMINATE trial “is the highest ever reported.” With previous trials with other transcatheter devices in development, the improvement so far has been on the order of 70%-80%.

For enrollment in TRILUMINATE, patients were required to have at least an intermediate risk of morbidity or mortality from tricuspid valve surgery. Exclusion criteria included a left ventricular ejection fraction (LVEF) less than 20% and severe pulmonary hypertension.

More than 70% of patients had the highest (torrential) or second highest (massive) category of regurgitation on a five-level scale by echocardiography. Almost all the remaining were at the third level (severe).

Of those enrolled, the average age was roughly 78 years. About 55% were women. Nearly 60% were in New York Heart Association class III or IV heart failure and most had significant comorbidities, including hypertension (> 80%), atrial fibrillation (about 90%), and renal disease (35%). Patients with diabetes (16%), chronic obstructive pulmonary disease (10%), and liver disease (7.5%) were represented in lower numbers.
 

Surgery is not necessarily an option

All enrolled patients were considered to be at intermediate or greater risk for mortality with surgical replacement of the tricuspid valve, but Dr. Sorajja pointed out that surgery, which involves valve replacement, is not necessarily an alternative to valve repair. Even in fit patients, the high morbidity, mortality, and extended hospital stay associated with surgical valve replacement makes this procedure unattractive.

In this trial, most patients who underwent the transcatheter procedure were discharged within a day. The safety was excellent, Dr. Sorajja said. Only three patients (1.7%) had a major adverse event. This included two cases of new-onset renal failure and one cardiovascular death. There were no cases of endocarditis requiring surgery or any other type of nonelective cardiovascular surgery, including for any device-related issue.

In the sick population enrolled, Dr. Sorajja characterized the number of adverse events over 1 year as “very low.”

Ted Bosworth/MDedge News

These results are important, according to Kendra Grubb, MD, surgical director of the Structural Heart and Valve Center, Emory University, Atlanta. While she expressed surprise that there was no signal of benefit on hard endpoints at 1 year, she emphasized that “these patients feel terrible,” and they are frustrating to manage because surgery is often contraindicated or impractical.

“Finally, we have something for this group,” she said, noting that the mortality from valve replacement surgery even among patients who are fit enough for surgery to be considered is about 10%.

Ajay Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, was more circumspect. He agreed that the improvement in QOL was encouraging, but cautioned that QOL is a particularly soft outcome in a nonrandomized trial in which patients may feel better just knowing that there regurgitation has been controlled. He found the lack of benefit on hard outcomes not just surprising but “disappointing.”

Still, he agreed the improvement in QOL is potentially meaningful for a procedure that appears to be relatively safe.

Dr. Sorajja reported financial relationships with Boston Scientific, Edwards Lifesciences, Foldax. 4C Medical, Gore Medtronic, Phillips, Siemens, Shifamed, Vdyne, xDot, and Abbott Structural, which provided funding for this trial. Dr. Grubb reported financial relationships with Abbott Vascular, Ancora Heart, Bioventrix, Boston Scientific, Edwards Lifesciences, 4C Medical, JenaValve, and Medtronic. Dr. Kirtane reported financial relationships with Abbott Vascular, Amgen, Boston Scientific, Chiesi, Medtronic, Opsens, Phillips, ReCor, Regeneron, and Zoll.

NEW ORLEANS – In the first pivotal randomized, controlled trial of a transcatheter device for the repair of severe tricuspid regurgitation, a large reduction in valve dysfunction was associated with substantial improvement in quality of life (QOL) persisting out of 1 year of follow-up, according to results of the TRILUMINATE trial.

Based on the low procedural risks of the repair, the principal investigator, Paul Sorajja, MD, called the results “very clinically meaningful” as he presented the results at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Ted Bosworth/MDedge News

Conducted at 65 centers in the United States, Canada, and North America, TRILUMINATE evaluated a transcatheter end-to-end (TEER) repair performed with the TriClip G4 Delivery System (Abbott). The study included two cohorts, both of which will be followed for 5 years. One included patients with very severe tricuspid regurgitation enrolled in a single arm. Data on this cohort is expected later in 2023.

In the randomized portion of the study, 350 patients enrolled with severe tricuspid regurgitation underwent TEER with a clipping device and then were followed on the guideline-directed therapy (GDMT) for heart failure they were receiving at baseline. The control group was managed on GDMT alone.

The primary composite endpoint at 1 year was a composite of death from any cause and/or tricuspid valve surgery, hospitalization for heart failure, and quality of life as measured with the Kansas City Cardiomyopathy questionnaire (KCCQ).
 

Benefit driven by quality of life

For the primary endpoint, the win ratio, a statistical calculation of those who did relative to those who did not benefit, was 1.48, signifying a 48% advantage (P = .02). This was driven almost entirely by the KCCQ endpoint. There was no significant difference death and/or tricuspid valve surgery, which occurred in about 10% of both groups (P = .75) or heart failure hospitalization, which was occurred in slightly more patients randomized to repair (14.9% vs. 12.1%; P = .41).

For KCCQ, the mean increase at 1 year was 12.3 points in the repair group versus 0.6 points (P < .001) in the control group. With an increase of 5-10 points typically considered to be clinically meaningful, the advantage of repair over GDMT at the threshold of 15 points or greater was highly statistically significant (49.7% vs. 26.4%; P < .0001).

This advantage was attributed to control of regurgitation. The proportion achieving moderate or less regurgitation sustained at 1 year was 87% in the repair group versus 4.8% in the GDMT group (P < .0001).

When assessed independent of treatment, KCCQ benefits at 1 year increased in a stepwise fashion as severity of regurgitation was reduced, climbing from 2 points if there was no improvement to 6 points with one grade in improvement and then to 18 points with at least a two-grade improvement.

For regurgitation, “the repair was extremely effective,” said Dr. Sorajja of Allina Health Minneapolis Heart Institute at Abbott Northwestern Hospital, Minneapolis. He added that the degree of regurgitation control in the TRILUMINATE trial “is the highest ever reported.” With previous trials with other transcatheter devices in development, the improvement so far has been on the order of 70%-80%.

For enrollment in TRILUMINATE, patients were required to have at least an intermediate risk of morbidity or mortality from tricuspid valve surgery. Exclusion criteria included a left ventricular ejection fraction (LVEF) less than 20% and severe pulmonary hypertension.

More than 70% of patients had the highest (torrential) or second highest (massive) category of regurgitation on a five-level scale by echocardiography. Almost all the remaining were at the third level (severe).

Of those enrolled, the average age was roughly 78 years. About 55% were women. Nearly 60% were in New York Heart Association class III or IV heart failure and most had significant comorbidities, including hypertension (> 80%), atrial fibrillation (about 90%), and renal disease (35%). Patients with diabetes (16%), chronic obstructive pulmonary disease (10%), and liver disease (7.5%) were represented in lower numbers.
 

Surgery is not necessarily an option

All enrolled patients were considered to be at intermediate or greater risk for mortality with surgical replacement of the tricuspid valve, but Dr. Sorajja pointed out that surgery, which involves valve replacement, is not necessarily an alternative to valve repair. Even in fit patients, the high morbidity, mortality, and extended hospital stay associated with surgical valve replacement makes this procedure unattractive.

In this trial, most patients who underwent the transcatheter procedure were discharged within a day. The safety was excellent, Dr. Sorajja said. Only three patients (1.7%) had a major adverse event. This included two cases of new-onset renal failure and one cardiovascular death. There were no cases of endocarditis requiring surgery or any other type of nonelective cardiovascular surgery, including for any device-related issue.

In the sick population enrolled, Dr. Sorajja characterized the number of adverse events over 1 year as “very low.”

Ted Bosworth/MDedge News

These results are important, according to Kendra Grubb, MD, surgical director of the Structural Heart and Valve Center, Emory University, Atlanta. While she expressed surprise that there was no signal of benefit on hard endpoints at 1 year, she emphasized that “these patients feel terrible,” and they are frustrating to manage because surgery is often contraindicated or impractical.

“Finally, we have something for this group,” she said, noting that the mortality from valve replacement surgery even among patients who are fit enough for surgery to be considered is about 10%.

Ajay Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, was more circumspect. He agreed that the improvement in QOL was encouraging, but cautioned that QOL is a particularly soft outcome in a nonrandomized trial in which patients may feel better just knowing that there regurgitation has been controlled. He found the lack of benefit on hard outcomes not just surprising but “disappointing.”

Still, he agreed the improvement in QOL is potentially meaningful for a procedure that appears to be relatively safe.

Dr. Sorajja reported financial relationships with Boston Scientific, Edwards Lifesciences, Foldax. 4C Medical, Gore Medtronic, Phillips, Siemens, Shifamed, Vdyne, xDot, and Abbott Structural, which provided funding for this trial. Dr. Grubb reported financial relationships with Abbott Vascular, Ancora Heart, Bioventrix, Boston Scientific, Edwards Lifesciences, 4C Medical, JenaValve, and Medtronic. Dr. Kirtane reported financial relationships with Abbott Vascular, Amgen, Boston Scientific, Chiesi, Medtronic, Opsens, Phillips, ReCor, Regeneron, and Zoll.

NEW ORLEANS – In the first pivotal randomized, controlled trial of a transcatheter device for the repair of severe tricuspid regurgitation, a large reduction in valve dysfunction was associated with substantial improvement in quality of life (QOL) persisting out of 1 year of follow-up, according to results of the TRILUMINATE trial.

Based on the low procedural risks of the repair, the principal investigator, Paul Sorajja, MD, called the results “very clinically meaningful” as he presented the results at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Ted Bosworth/MDedge News

Conducted at 65 centers in the United States, Canada, and North America, TRILUMINATE evaluated a transcatheter end-to-end (TEER) repair performed with the TriClip G4 Delivery System (Abbott). The study included two cohorts, both of which will be followed for 5 years. One included patients with very severe tricuspid regurgitation enrolled in a single arm. Data on this cohort is expected later in 2023.

In the randomized portion of the study, 350 patients enrolled with severe tricuspid regurgitation underwent TEER with a clipping device and then were followed on the guideline-directed therapy (GDMT) for heart failure they were receiving at baseline. The control group was managed on GDMT alone.

The primary composite endpoint at 1 year was a composite of death from any cause and/or tricuspid valve surgery, hospitalization for heart failure, and quality of life as measured with the Kansas City Cardiomyopathy questionnaire (KCCQ).
 

Benefit driven by quality of life

For the primary endpoint, the win ratio, a statistical calculation of those who did relative to those who did not benefit, was 1.48, signifying a 48% advantage (P = .02). This was driven almost entirely by the KCCQ endpoint. There was no significant difference death and/or tricuspid valve surgery, which occurred in about 10% of both groups (P = .75) or heart failure hospitalization, which was occurred in slightly more patients randomized to repair (14.9% vs. 12.1%; P = .41).

For KCCQ, the mean increase at 1 year was 12.3 points in the repair group versus 0.6 points (P < .001) in the control group. With an increase of 5-10 points typically considered to be clinically meaningful, the advantage of repair over GDMT at the threshold of 15 points or greater was highly statistically significant (49.7% vs. 26.4%; P < .0001).

This advantage was attributed to control of regurgitation. The proportion achieving moderate or less regurgitation sustained at 1 year was 87% in the repair group versus 4.8% in the GDMT group (P < .0001).

When assessed independent of treatment, KCCQ benefits at 1 year increased in a stepwise fashion as severity of regurgitation was reduced, climbing from 2 points if there was no improvement to 6 points with one grade in improvement and then to 18 points with at least a two-grade improvement.

For regurgitation, “the repair was extremely effective,” said Dr. Sorajja of Allina Health Minneapolis Heart Institute at Abbott Northwestern Hospital, Minneapolis. He added that the degree of regurgitation control in the TRILUMINATE trial “is the highest ever reported.” With previous trials with other transcatheter devices in development, the improvement so far has been on the order of 70%-80%.

For enrollment in TRILUMINATE, patients were required to have at least an intermediate risk of morbidity or mortality from tricuspid valve surgery. Exclusion criteria included a left ventricular ejection fraction (LVEF) less than 20% and severe pulmonary hypertension.

More than 70% of patients had the highest (torrential) or second highest (massive) category of regurgitation on a five-level scale by echocardiography. Almost all the remaining were at the third level (severe).

Of those enrolled, the average age was roughly 78 years. About 55% were women. Nearly 60% were in New York Heart Association class III or IV heart failure and most had significant comorbidities, including hypertension (> 80%), atrial fibrillation (about 90%), and renal disease (35%). Patients with diabetes (16%), chronic obstructive pulmonary disease (10%), and liver disease (7.5%) were represented in lower numbers.
 

Surgery is not necessarily an option

All enrolled patients were considered to be at intermediate or greater risk for mortality with surgical replacement of the tricuspid valve, but Dr. Sorajja pointed out that surgery, which involves valve replacement, is not necessarily an alternative to valve repair. Even in fit patients, the high morbidity, mortality, and extended hospital stay associated with surgical valve replacement makes this procedure unattractive.

In this trial, most patients who underwent the transcatheter procedure were discharged within a day. The safety was excellent, Dr. Sorajja said. Only three patients (1.7%) had a major adverse event. This included two cases of new-onset renal failure and one cardiovascular death. There were no cases of endocarditis requiring surgery or any other type of nonelective cardiovascular surgery, including for any device-related issue.

In the sick population enrolled, Dr. Sorajja characterized the number of adverse events over 1 year as “very low.”

Ted Bosworth/MDedge News

These results are important, according to Kendra Grubb, MD, surgical director of the Structural Heart and Valve Center, Emory University, Atlanta. While she expressed surprise that there was no signal of benefit on hard endpoints at 1 year, she emphasized that “these patients feel terrible,” and they are frustrating to manage because surgery is often contraindicated or impractical.

“Finally, we have something for this group,” she said, noting that the mortality from valve replacement surgery even among patients who are fit enough for surgery to be considered is about 10%.

Ajay Kirtane, MD, director of the Cardiac Catheterization Laboratories at Columbia University, New York, was more circumspect. He agreed that the improvement in QOL was encouraging, but cautioned that QOL is a particularly soft outcome in a nonrandomized trial in which patients may feel better just knowing that there regurgitation has been controlled. He found the lack of benefit on hard outcomes not just surprising but “disappointing.”

Still, he agreed the improvement in QOL is potentially meaningful for a procedure that appears to be relatively safe.

Dr. Sorajja reported financial relationships with Boston Scientific, Edwards Lifesciences, Foldax. 4C Medical, Gore Medtronic, Phillips, Siemens, Shifamed, Vdyne, xDot, and Abbott Structural, which provided funding for this trial. Dr. Grubb reported financial relationships with Abbott Vascular, Ancora Heart, Bioventrix, Boston Scientific, Edwards Lifesciences, 4C Medical, JenaValve, and Medtronic. Dr. Kirtane reported financial relationships with Abbott Vascular, Amgen, Boston Scientific, Chiesi, Medtronic, Opsens, Phillips, ReCor, Regeneron, and Zoll.

In a pooled analysis from two randomized trials, transcatheter aortic valve implantation (TAVI) was associated with significantly less bioprosthetic valve dysfunction (BVD) than a surgical prosthetic implantation, according to data presented as a late-breaker at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

“The difference in valve performance was driven by a twofold lower SVD [structural valve deterioration] and a 3-fold lower severe PPM [prothesis-patient mismatch] for TAVI versus surgery,” reported Steven J. Yakubov, MD.

Ted Bosworth/MDedge News

The data were pooled from the CoreValve U.S. Pivotal and SURTAVI randomized trials. Of patients participating in these two trials, 5-year follow-up data were available for 1,128 randomized to the CoreValve/Evolut TAVI and 971 randomized to surgical prosthetic valve replacement.

The major focus of the study was on the cumulative incidence of BVD, but the study also included separate analyses on the relationship between BVD and clinical outcomes. Preprocedural indicators for BVD at 5 years were also analyzed.

SVD was defined as a mean gradient increase of at least 10 mm Hg from discharge to 30 days, along with at least 20 mm Hg at last echo or new-onset aortic regurgitation. Nonstructural valve deterioration (NSVD) was defined as severe PPM at discharge or 30 days or severe paravalvular regurgitation through 5 years. In addition to these two components, the BVD endpoint also included thrombosis and endocarditis.
 

Surgical valve deterioration high at 5 years

On the basis of these definitions, the rate of BVD at 5 years was 14.2% in the surgery group and 7.8% in the TAVI group, translating into a 50% risk reduction in favor of TAVI (hazard ratio, 0.50; P < .001).

Thrombosis or endocarditis occurred in low rates in both groups, but every other component of BVD favored TAVI significantly, not just numerically. This included SVD (2.2% vs. 4.4%; P = .004), and the two components of NSVD, PPM (3.7% vs. 11.8%; P < .001) and severe paravalvular regurgitation (0.2% vs. 1.2%; P = .02).

When stratified by annular diameter, the relative advantage of TAVI over surgery was greatest in those valves with diameters of up to 23 mm. In this group, the lower relative rate in the TAVI group (8.6% vs. 19.7%) represented a nearly 70% reduction in risk of valve deterioration at 5 years (HR, 0.31; P < .001).

However, the advantage at 5 years also remained substantial and significant in larger valves (8.1% vs. 12.6%), translating into a 40% risk reduction in favor of TAVI (HR, 0.60; P = .002).

Independent of type of valve replacement, BVD at 5 years was associated with worse outcomes, including significantly increased risks for all-cause mortality (HR, 1.46; P = .004), cardiovascular mortality (1.84; P < .001), and hospitalization for valve disease or worsening heart failure (HR, 1.67; P = .001).

The baseline characteristics that were statistically associated with BVD at 5 years on multivariate analysis in pooled data from both the TAVI and surgical groups included age (P = .02), a creatinine clearance less than 30 mL/min per 1.73 m² (P = .006), and a low relative baseline left ventricular ejection fraction (P < .001).
 

BVD criteria validated for outcome prediction

The four components of valve performance employed in this analysis (SVD, NSVD, thrombosis, and endocarditis) were drawn from consensus documents issued by the Valve Academic Research Consortium and the European Association of Percutaneous Cardiovascular Interventions, but the relative importance of these components for predicting valve survival was previously unknown, according to Dr. Yakubov.

“This is the first analysis to validate clinical criteria for valve performance and its association with clinical outcomes,” said Dr. Yakubov, medical director of cardiovascular studies, OhioHealth Research Institute at Riverside Methodist Hospital, Columbus.

This is also the first study to employ randomized data to prove an advantage of TAVI over surgery in long-term follow-up.

A 10-year follow-up is planned for the patients who participated in these two trials, but the lower rate of BVD in the TAVI arm at 5 years is already a threat to surgical repairs, acknowledged several surgeons who served as panelists in the session where these results were presented.

“I think that these data are a reflection of the fact that we [surgeons] are not being as aggressive as we should be,” said Gregory P. Fontana, MD, who is national director, cardiothoracic surgery, HCA Healthcare, and is affiliated with Los Robles Health System, Thousand Oaks, Calif. “We need to be employing larger prostheses.”

Ted Bosworth/MDedge News

A very similar comment was made by Michael J. Reardon, MD, a professor of cardiothoracic surgery at Houston Methodist Hospital. Pointing to the higher rate of PVL as an example of a common postsurgical complication, he agreed that surgeons should be moving to bigger valve sizes.

While adjustments in valve size might address the steeper rise in NSVD subtypes of BVD observed in the surgical group, but Dr. Reardon and others pointed out that late BVD events also rose at a greater pace in the surgical group. These suggest other improvements in technique might also be needed to keep surgical valve repairs competitive.

Dr. Yakubov reported financial relationships with Medtronic and Boston Scientific, both of which provided funding for this study. Dr. Fontana reported financial relationships with Abbott and Medtronic. Dr. Reardon reported financial relationships with Abbott, Boston Scientific, Medtronic, and Gore Medical.

In a pooled analysis from two randomized trials, transcatheter aortic valve implantation (TAVI) was associated with significantly less bioprosthetic valve dysfunction (BVD) than a surgical prosthetic implantation, according to data presented as a late-breaker at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

“The difference in valve performance was driven by a twofold lower SVD [structural valve deterioration] and a 3-fold lower severe PPM [prothesis-patient mismatch] for TAVI versus surgery,” reported Steven J. Yakubov, MD.

Ted Bosworth/MDedge News

The data were pooled from the CoreValve U.S. Pivotal and SURTAVI randomized trials. Of patients participating in these two trials, 5-year follow-up data were available for 1,128 randomized to the CoreValve/Evolut TAVI and 971 randomized to surgical prosthetic valve replacement.

The major focus of the study was on the cumulative incidence of BVD, but the study also included separate analyses on the relationship between BVD and clinical outcomes. Preprocedural indicators for BVD at 5 years were also analyzed.

SVD was defined as a mean gradient increase of at least 10 mm Hg from discharge to 30 days, along with at least 20 mm Hg at last echo or new-onset aortic regurgitation. Nonstructural valve deterioration (NSVD) was defined as severe PPM at discharge or 30 days or severe paravalvular regurgitation through 5 years. In addition to these two components, the BVD endpoint also included thrombosis and endocarditis.
 

Surgical valve deterioration high at 5 years

On the basis of these definitions, the rate of BVD at 5 years was 14.2% in the surgery group and 7.8% in the TAVI group, translating into a 50% risk reduction in favor of TAVI (hazard ratio, 0.50; P < .001).

Thrombosis or endocarditis occurred in low rates in both groups, but every other component of BVD favored TAVI significantly, not just numerically. This included SVD (2.2% vs. 4.4%; P = .004), and the two components of NSVD, PPM (3.7% vs. 11.8%; P < .001) and severe paravalvular regurgitation (0.2% vs. 1.2%; P = .02).

When stratified by annular diameter, the relative advantage of TAVI over surgery was greatest in those valves with diameters of up to 23 mm. In this group, the lower relative rate in the TAVI group (8.6% vs. 19.7%) represented a nearly 70% reduction in risk of valve deterioration at 5 years (HR, 0.31; P < .001).

However, the advantage at 5 years also remained substantial and significant in larger valves (8.1% vs. 12.6%), translating into a 40% risk reduction in favor of TAVI (HR, 0.60; P = .002).

Independent of type of valve replacement, BVD at 5 years was associated with worse outcomes, including significantly increased risks for all-cause mortality (HR, 1.46; P = .004), cardiovascular mortality (1.84; P < .001), and hospitalization for valve disease or worsening heart failure (HR, 1.67; P = .001).

The baseline characteristics that were statistically associated with BVD at 5 years on multivariate analysis in pooled data from both the TAVI and surgical groups included age (P = .02), a creatinine clearance less than 30 mL/min per 1.73 m² (P = .006), and a low relative baseline left ventricular ejection fraction (P < .001).
 

BVD criteria validated for outcome prediction

The four components of valve performance employed in this analysis (SVD, NSVD, thrombosis, and endocarditis) were drawn from consensus documents issued by the Valve Academic Research Consortium and the European Association of Percutaneous Cardiovascular Interventions, but the relative importance of these components for predicting valve survival was previously unknown, according to Dr. Yakubov.

“This is the first analysis to validate clinical criteria for valve performance and its association with clinical outcomes,” said Dr. Yakubov, medical director of cardiovascular studies, OhioHealth Research Institute at Riverside Methodist Hospital, Columbus.

This is also the first study to employ randomized data to prove an advantage of TAVI over surgery in long-term follow-up.

A 10-year follow-up is planned for the patients who participated in these two trials, but the lower rate of BVD in the TAVI arm at 5 years is already a threat to surgical repairs, acknowledged several surgeons who served as panelists in the session where these results were presented.

“I think that these data are a reflection of the fact that we [surgeons] are not being as aggressive as we should be,” said Gregory P. Fontana, MD, who is national director, cardiothoracic surgery, HCA Healthcare, and is affiliated with Los Robles Health System, Thousand Oaks, Calif. “We need to be employing larger prostheses.”

Ted Bosworth/MDedge News

A very similar comment was made by Michael J. Reardon, MD, a professor of cardiothoracic surgery at Houston Methodist Hospital. Pointing to the higher rate of PVL as an example of a common postsurgical complication, he agreed that surgeons should be moving to bigger valve sizes.

While adjustments in valve size might address the steeper rise in NSVD subtypes of BVD observed in the surgical group, but Dr. Reardon and others pointed out that late BVD events also rose at a greater pace in the surgical group. These suggest other improvements in technique might also be needed to keep surgical valve repairs competitive.

Dr. Yakubov reported financial relationships with Medtronic and Boston Scientific, both of which provided funding for this study. Dr. Fontana reported financial relationships with Abbott and Medtronic. Dr. Reardon reported financial relationships with Abbott, Boston Scientific, Medtronic, and Gore Medical.

In a pooled analysis from two randomized trials, transcatheter aortic valve implantation (TAVI) was associated with significantly less bioprosthetic valve dysfunction (BVD) than a surgical prosthetic implantation, according to data presented as a late-breaker at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

“The difference in valve performance was driven by a twofold lower SVD [structural valve deterioration] and a 3-fold lower severe PPM [prothesis-patient mismatch] for TAVI versus surgery,” reported Steven J. Yakubov, MD.

Ted Bosworth/MDedge News

The data were pooled from the CoreValve U.S. Pivotal and SURTAVI randomized trials. Of patients participating in these two trials, 5-year follow-up data were available for 1,128 randomized to the CoreValve/Evolut TAVI and 971 randomized to surgical prosthetic valve replacement.

The major focus of the study was on the cumulative incidence of BVD, but the study also included separate analyses on the relationship between BVD and clinical outcomes. Preprocedural indicators for BVD at 5 years were also analyzed.

SVD was defined as a mean gradient increase of at least 10 mm Hg from discharge to 30 days, along with at least 20 mm Hg at last echo or new-onset aortic regurgitation. Nonstructural valve deterioration (NSVD) was defined as severe PPM at discharge or 30 days or severe paravalvular regurgitation through 5 years. In addition to these two components, the BVD endpoint also included thrombosis and endocarditis.
 

Surgical valve deterioration high at 5 years

On the basis of these definitions, the rate of BVD at 5 years was 14.2% in the surgery group and 7.8% in the TAVI group, translating into a 50% risk reduction in favor of TAVI (hazard ratio, 0.50; P < .001).

Thrombosis or endocarditis occurred in low rates in both groups, but every other component of BVD favored TAVI significantly, not just numerically. This included SVD (2.2% vs. 4.4%; P = .004), and the two components of NSVD, PPM (3.7% vs. 11.8%; P < .001) and severe paravalvular regurgitation (0.2% vs. 1.2%; P = .02).

When stratified by annular diameter, the relative advantage of TAVI over surgery was greatest in those valves with diameters of up to 23 mm. In this group, the lower relative rate in the TAVI group (8.6% vs. 19.7%) represented a nearly 70% reduction in risk of valve deterioration at 5 years (HR, 0.31; P < .001).

However, the advantage at 5 years also remained substantial and significant in larger valves (8.1% vs. 12.6%), translating into a 40% risk reduction in favor of TAVI (HR, 0.60; P = .002).

Independent of type of valve replacement, BVD at 5 years was associated with worse outcomes, including significantly increased risks for all-cause mortality (HR, 1.46; P = .004), cardiovascular mortality (1.84; P < .001), and hospitalization for valve disease or worsening heart failure (HR, 1.67; P = .001).

The baseline characteristics that were statistically associated with BVD at 5 years on multivariate analysis in pooled data from both the TAVI and surgical groups included age (P = .02), a creatinine clearance less than 30 mL/min per 1.73 m² (P = .006), and a low relative baseline left ventricular ejection fraction (P < .001).
 

BVD criteria validated for outcome prediction

The four components of valve performance employed in this analysis (SVD, NSVD, thrombosis, and endocarditis) were drawn from consensus documents issued by the Valve Academic Research Consortium and the European Association of Percutaneous Cardiovascular Interventions, but the relative importance of these components for predicting valve survival was previously unknown, according to Dr. Yakubov.

“This is the first analysis to validate clinical criteria for valve performance and its association with clinical outcomes,” said Dr. Yakubov, medical director of cardiovascular studies, OhioHealth Research Institute at Riverside Methodist Hospital, Columbus.

This is also the first study to employ randomized data to prove an advantage of TAVI over surgery in long-term follow-up.

A 10-year follow-up is planned for the patients who participated in these two trials, but the lower rate of BVD in the TAVI arm at 5 years is already a threat to surgical repairs, acknowledged several surgeons who served as panelists in the session where these results were presented.

“I think that these data are a reflection of the fact that we [surgeons] are not being as aggressive as we should be,” said Gregory P. Fontana, MD, who is national director, cardiothoracic surgery, HCA Healthcare, and is affiliated with Los Robles Health System, Thousand Oaks, Calif. “We need to be employing larger prostheses.”

Ted Bosworth/MDedge News

A very similar comment was made by Michael J. Reardon, MD, a professor of cardiothoracic surgery at Houston Methodist Hospital. Pointing to the higher rate of PVL as an example of a common postsurgical complication, he agreed that surgeons should be moving to bigger valve sizes.

While adjustments in valve size might address the steeper rise in NSVD subtypes of BVD observed in the surgical group, but Dr. Reardon and others pointed out that late BVD events also rose at a greater pace in the surgical group. These suggest other improvements in technique might also be needed to keep surgical valve repairs competitive.

Dr. Yakubov reported financial relationships with Medtronic and Boston Scientific, both of which provided funding for this study. Dr. Fontana reported financial relationships with Abbott and Medtronic. Dr. Reardon reported financial relationships with Abbott, Boston Scientific, Medtronic, and Gore Medical.

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

For patients with early stage non–small cell lung cancer (NSCLC), the survival outcomes can be just as good with sublobar resection as with the more invasive lobar resection, suggest results from the CALGB 140503 trial, although strict patient selection remains key.

These new results contrast with those from a previous study from 1995, which found that local recurrence was three times higher and cancer mortality was twice as high with the less invasive procedure.

Those results from nearly 30 years ago established lobectomy as the standard of surgical care in this patient population, but since then advances in imaging and staging have allowed the detection of smaller and earlier tumors, which has “rekindled interest in sublobar resection,” the authors comment.

Hence, they conducted the new trial, which involved almost 700 U.S. patients with clinical T1aN0 NSCLC and a tumor size up to 2 cm, who were randomly assigned to lobar or sublobar tumor resection, and followed for 7 years.

The rates of both disease-free and overall survival were similar between the two groups, with no significant differences observed. There were also no substantial differences in rates of distant and locoregional recurrence.

In addition, there was a suggestion of less reduction in pulmonary function following the less invasive procedure.

“These findings affirm that sublobar resection ... is an effective management approach for this subgroup of patients with NSCLC,” says lead author Nasser Altorki, MD, Weill Cornell Medicine, NewYork–Presbyterian Hospital, New York.

“It is important that these results are interpreted strictly within the constraints of the eligibility criteria mandated by the trial, he emphasizes. “Specifically, the results are applicable only to a highly selected group of patients ... in whom the absence of metastases to hilar and mediastinal lymph nodes is pathologically confirmed.”

Nevertheless, Dr. Altorki said that “these results will become increasingly relevant as the proportion of patients with early-stage lung cancer increases with expanded implementation of lung cancer screening, and as the number of older persons with early-stage disease in whom sublobar resection may be the preferred surgical option increases.”

The study was published online in the New England Journal of Medicine.

In an accompanying editorial, Valerie W. Rusch, MD, Thoracic Service, Memorial Sloan Kettering Cancer Center, New York, agrees. “As CT screening becomes more widespread, this patient population will increase in clinical practice,” she explains.

However, Dr. Rusch also urges caution around patient selection, underlining that the results do not “provide a license for suboptimal surgical care.”

She says that “safeguards” such as the meticulous and strict patient criteria used in the trial “must be preserved in routine practice.”

“Thoracic surgeons will need to expand their expertise in sublobar resections, especially complex segmentectomies, and will need to collaborate closely with pathologists in assessing margins of resection, adequacy of lymph-node staging, and tumor characteristics that may predict recurrence.”

While emphasizing that lobectomy should still be performed when appropriate, Dr. Rusch nevertheless says: “The era of ‘precision’ surgery for NSCLC has arrived.”


 

Consistent with Japanese results

The investigators also point out that their findings are “consistent” with those of a recent Japanese study that compared lobectomy with anatomical segmentectomy, which found that the 5-year overall survival was 91.1% for lobectomy and 94.3% for segmentectomy.

The authors suggest that the difference in overall survival rates between the two trials might be due to anatomical segmentectomy being “considered by most surgeons to be more oncologically sound than wedge resection.”

In the current trial, wedge resection was allowed, however, “because it is the most frequently practiced method of sublobar resection in North America and Europe; thus, its inclusion would make the trial more representative of a ‘real world’ setting.”

Another important difference could be that more than 90% of the patients in the Japanese trial had adenocarcinoma, 45% with an associated ground-glass component, which is associated with better survival than a completely solid adenocarcinoma.

Dr. Rusch agrees that there are likely to be various factors related to the survival differences between the two trials, including patient selection, intraoperative management, and tumor characteristics.

“However, these two landmark trials are practice-changing because they establish sublobar resection as the standard of care for a select group of patients with NSCLC,” Dr. Rusch concluded.
 

Study details

Dr. Altorki and colleagues conducted the multicenter, international, randomized, noninferiority, phase 3 trial in patients with clinically staged T1aN0 NSCLC from 83 academic and community-based institutions in the United States, Canada, and Australia.

Patients were required to have a peripheral lung nodule with a solid component of up to 2 cm on preoperative CT, a tumor center in the outer third of the lung, and a tumor location amenable to sublobar resection, whether wedge or segment, or lobar resection, among other criteria.

In all, 697 patients were randomly assigned to undergo either lobar resection or sublobar resection, of whom 59.1% had wedge resection and 37.9% anatomical segmental resection. The median age was 67.9 years, and 57.4% were female. The vast majority (90%) were White.

After a median follow-up of 7 years, the 5-year disease-free survival was 63.6% with sublobar resection and 64.1% following lobar resection.

The team found that sublobar resection was not inferior to lobectomy for disease-free survival, at a hazard ratio for disease recurrence or death of 1.01 (90% confidence interval, 0.83-1.24), which adjusted to 0.99 after taking into account the site where the patient was treated.

The 5-year overall survival rate was 80.3% after sublobar resection, and 78.9% following lobar resection, at a hazard ratio for death of 0.95 (95% CI, 0.72-1.26).

The results were “generally consistent” when accounting for factors such as age group, sex, tumor location, histologic type, smoking history, tumor size, and ECOG performance status, the team says.

Turning to recurrence, they showed that, among 687 patients eligible for assessment, 30.4% of those in the sublobar resection group and 29.3% of those assigned to lobar resection experienced disease recurrence, with 13.4% and 10%, respectively, having locoregional recurrence.

An exploratory analysis indicated that 5-year recurrence-free survival was similar in the two groups, at 70.2% vs. 71.2% or a hazard ratio for recurrence of 1.05 (95% CI, 0.80-1.39). The cumulative incidence of death was also similar.

It was also notable that reduction in predictive forced expiratory volume in 1 second from baseline was lower with sublobar than lobar resection, at –4.0 vs. –6.0, as was the reduction in predicted forced vital capacity, at –3.0 vs. –5.0.

“Although this difference is arguably not clinically meaningful in this patient population with normal baseline pulmonary functions,” the team writes, “it may be more clinically relevant in patients with compromised pulmonary functions, or in those with lower-lobe disease in whom lobar resection may be associated with greater impairment of pulmonary function.”

Dr. Rusch suggests that “more sensitive or functional assessments” of pulmonary function might include “diffusion capacity and 6-minute walk tests,” although she noted that even short-term differences in pulmonary function “may affect perioperative and functional outcomes, especially for tumors in the lower lobe.”

The study was supported by the National Cancer Institute of the National Institutes of Health, including via grants to the Alliance for Clinical Trials in Oncology and the Canadian Cancer Trials Group, and supported in part by Covidien and Ethicon.

Dr. Altorki reports relationships with AstraZeneca, Genentech, Johnson & Johnson, and Regeneron. Dr. Rusch reports relationships with Cancer Research UK, Genentech, and the National Cancer Institute.

A version of this article first appeared on Medscape.com.

For patients with early stage non–small cell lung cancer (NSCLC), the survival outcomes can be just as good with sublobar resection as with the more invasive lobar resection, suggest results from the CALGB 140503 trial, although strict patient selection remains key.

These new results contrast with those from a previous study from 1995, which found that local recurrence was three times higher and cancer mortality was twice as high with the less invasive procedure.

Those results from nearly 30 years ago established lobectomy as the standard of surgical care in this patient population, but since then advances in imaging and staging have allowed the detection of smaller and earlier tumors, which has “rekindled interest in sublobar resection,” the authors comment.

Hence, they conducted the new trial, which involved almost 700 U.S. patients with clinical T1aN0 NSCLC and a tumor size up to 2 cm, who were randomly assigned to lobar or sublobar tumor resection, and followed for 7 years.

The rates of both disease-free and overall survival were similar between the two groups, with no significant differences observed. There were also no substantial differences in rates of distant and locoregional recurrence.

In addition, there was a suggestion of less reduction in pulmonary function following the less invasive procedure.

“These findings affirm that sublobar resection ... is an effective management approach for this subgroup of patients with NSCLC,” says lead author Nasser Altorki, MD, Weill Cornell Medicine, NewYork–Presbyterian Hospital, New York.

“It is important that these results are interpreted strictly within the constraints of the eligibility criteria mandated by the trial, he emphasizes. “Specifically, the results are applicable only to a highly selected group of patients ... in whom the absence of metastases to hilar and mediastinal lymph nodes is pathologically confirmed.”

Nevertheless, Dr. Altorki said that “these results will become increasingly relevant as the proportion of patients with early-stage lung cancer increases with expanded implementation of lung cancer screening, and as the number of older persons with early-stage disease in whom sublobar resection may be the preferred surgical option increases.”

The study was published online in the New England Journal of Medicine.

In an accompanying editorial, Valerie W. Rusch, MD, Thoracic Service, Memorial Sloan Kettering Cancer Center, New York, agrees. “As CT screening becomes more widespread, this patient population will increase in clinical practice,” she explains.

However, Dr. Rusch also urges caution around patient selection, underlining that the results do not “provide a license for suboptimal surgical care.”

She says that “safeguards” such as the meticulous and strict patient criteria used in the trial “must be preserved in routine practice.”

“Thoracic surgeons will need to expand their expertise in sublobar resections, especially complex segmentectomies, and will need to collaborate closely with pathologists in assessing margins of resection, adequacy of lymph-node staging, and tumor characteristics that may predict recurrence.”

While emphasizing that lobectomy should still be performed when appropriate, Dr. Rusch nevertheless says: “The era of ‘precision’ surgery for NSCLC has arrived.”


 

Consistent with Japanese results

The investigators also point out that their findings are “consistent” with those of a recent Japanese study that compared lobectomy with anatomical segmentectomy, which found that the 5-year overall survival was 91.1% for lobectomy and 94.3% for segmentectomy.

The authors suggest that the difference in overall survival rates between the two trials might be due to anatomical segmentectomy being “considered by most surgeons to be more oncologically sound than wedge resection.”

In the current trial, wedge resection was allowed, however, “because it is the most frequently practiced method of sublobar resection in North America and Europe; thus, its inclusion would make the trial more representative of a ‘real world’ setting.”

Another important difference could be that more than 90% of the patients in the Japanese trial had adenocarcinoma, 45% with an associated ground-glass component, which is associated with better survival than a completely solid adenocarcinoma.

Dr. Rusch agrees that there are likely to be various factors related to the survival differences between the two trials, including patient selection, intraoperative management, and tumor characteristics.

“However, these two landmark trials are practice-changing because they establish sublobar resection as the standard of care for a select group of patients with NSCLC,” Dr. Rusch concluded.
 

Study details

Dr. Altorki and colleagues conducted the multicenter, international, randomized, noninferiority, phase 3 trial in patients with clinically staged T1aN0 NSCLC from 83 academic and community-based institutions in the United States, Canada, and Australia.

Patients were required to have a peripheral lung nodule with a solid component of up to 2 cm on preoperative CT, a tumor center in the outer third of the lung, and a tumor location amenable to sublobar resection, whether wedge or segment, or lobar resection, among other criteria.

In all, 697 patients were randomly assigned to undergo either lobar resection or sublobar resection, of whom 59.1% had wedge resection and 37.9% anatomical segmental resection. The median age was 67.9 years, and 57.4% were female. The vast majority (90%) were White.

After a median follow-up of 7 years, the 5-year disease-free survival was 63.6% with sublobar resection and 64.1% following lobar resection.

The team found that sublobar resection was not inferior to lobectomy for disease-free survival, at a hazard ratio for disease recurrence or death of 1.01 (90% confidence interval, 0.83-1.24), which adjusted to 0.99 after taking into account the site where the patient was treated.

The 5-year overall survival rate was 80.3% after sublobar resection, and 78.9% following lobar resection, at a hazard ratio for death of 0.95 (95% CI, 0.72-1.26).

The results were “generally consistent” when accounting for factors such as age group, sex, tumor location, histologic type, smoking history, tumor size, and ECOG performance status, the team says.

Turning to recurrence, they showed that, among 687 patients eligible for assessment, 30.4% of those in the sublobar resection group and 29.3% of those assigned to lobar resection experienced disease recurrence, with 13.4% and 10%, respectively, having locoregional recurrence.

An exploratory analysis indicated that 5-year recurrence-free survival was similar in the two groups, at 70.2% vs. 71.2% or a hazard ratio for recurrence of 1.05 (95% CI, 0.80-1.39). The cumulative incidence of death was also similar.

It was also notable that reduction in predictive forced expiratory volume in 1 second from baseline was lower with sublobar than lobar resection, at –4.0 vs. –6.0, as was the reduction in predicted forced vital capacity, at –3.0 vs. –5.0.

“Although this difference is arguably not clinically meaningful in this patient population with normal baseline pulmonary functions,” the team writes, “it may be more clinically relevant in patients with compromised pulmonary functions, or in those with lower-lobe disease in whom lobar resection may be associated with greater impairment of pulmonary function.”

Dr. Rusch suggests that “more sensitive or functional assessments” of pulmonary function might include “diffusion capacity and 6-minute walk tests,” although she noted that even short-term differences in pulmonary function “may affect perioperative and functional outcomes, especially for tumors in the lower lobe.”

The study was supported by the National Cancer Institute of the National Institutes of Health, including via grants to the Alliance for Clinical Trials in Oncology and the Canadian Cancer Trials Group, and supported in part by Covidien and Ethicon.

Dr. Altorki reports relationships with AstraZeneca, Genentech, Johnson & Johnson, and Regeneron. Dr. Rusch reports relationships with Cancer Research UK, Genentech, and the National Cancer Institute.

A version of this article first appeared on Medscape.com.

For patients with early stage non–small cell lung cancer (NSCLC), the survival outcomes can be just as good with sublobar resection as with the more invasive lobar resection, suggest results from the CALGB 140503 trial, although strict patient selection remains key.

These new results contrast with those from a previous study from 1995, which found that local recurrence was three times higher and cancer mortality was twice as high with the less invasive procedure.

Those results from nearly 30 years ago established lobectomy as the standard of surgical care in this patient population, but since then advances in imaging and staging have allowed the detection of smaller and earlier tumors, which has “rekindled interest in sublobar resection,” the authors comment.

Hence, they conducted the new trial, which involved almost 700 U.S. patients with clinical T1aN0 NSCLC and a tumor size up to 2 cm, who were randomly assigned to lobar or sublobar tumor resection, and followed for 7 years.

The rates of both disease-free and overall survival were similar between the two groups, with no significant differences observed. There were also no substantial differences in rates of distant and locoregional recurrence.

In addition, there was a suggestion of less reduction in pulmonary function following the less invasive procedure.

“These findings affirm that sublobar resection ... is an effective management approach for this subgroup of patients with NSCLC,” says lead author Nasser Altorki, MD, Weill Cornell Medicine, NewYork–Presbyterian Hospital, New York.

“It is important that these results are interpreted strictly within the constraints of the eligibility criteria mandated by the trial, he emphasizes. “Specifically, the results are applicable only to a highly selected group of patients ... in whom the absence of metastases to hilar and mediastinal lymph nodes is pathologically confirmed.”

Nevertheless, Dr. Altorki said that “these results will become increasingly relevant as the proportion of patients with early-stage lung cancer increases with expanded implementation of lung cancer screening, and as the number of older persons with early-stage disease in whom sublobar resection may be the preferred surgical option increases.”

The study was published online in the New England Journal of Medicine.

In an accompanying editorial, Valerie W. Rusch, MD, Thoracic Service, Memorial Sloan Kettering Cancer Center, New York, agrees. “As CT screening becomes more widespread, this patient population will increase in clinical practice,” she explains.

However, Dr. Rusch also urges caution around patient selection, underlining that the results do not “provide a license for suboptimal surgical care.”

She says that “safeguards” such as the meticulous and strict patient criteria used in the trial “must be preserved in routine practice.”

“Thoracic surgeons will need to expand their expertise in sublobar resections, especially complex segmentectomies, and will need to collaborate closely with pathologists in assessing margins of resection, adequacy of lymph-node staging, and tumor characteristics that may predict recurrence.”

While emphasizing that lobectomy should still be performed when appropriate, Dr. Rusch nevertheless says: “The era of ‘precision’ surgery for NSCLC has arrived.”


 

Consistent with Japanese results

The investigators also point out that their findings are “consistent” with those of a recent Japanese study that compared lobectomy with anatomical segmentectomy, which found that the 5-year overall survival was 91.1% for lobectomy and 94.3% for segmentectomy.

The authors suggest that the difference in overall survival rates between the two trials might be due to anatomical segmentectomy being “considered by most surgeons to be more oncologically sound than wedge resection.”

In the current trial, wedge resection was allowed, however, “because it is the most frequently practiced method of sublobar resection in North America and Europe; thus, its inclusion would make the trial more representative of a ‘real world’ setting.”

Another important difference could be that more than 90% of the patients in the Japanese trial had adenocarcinoma, 45% with an associated ground-glass component, which is associated with better survival than a completely solid adenocarcinoma.

Dr. Rusch agrees that there are likely to be various factors related to the survival differences between the two trials, including patient selection, intraoperative management, and tumor characteristics.

“However, these two landmark trials are practice-changing because they establish sublobar resection as the standard of care for a select group of patients with NSCLC,” Dr. Rusch concluded.
 

Study details

Dr. Altorki and colleagues conducted the multicenter, international, randomized, noninferiority, phase 3 trial in patients with clinically staged T1aN0 NSCLC from 83 academic and community-based institutions in the United States, Canada, and Australia.

Patients were required to have a peripheral lung nodule with a solid component of up to 2 cm on preoperative CT, a tumor center in the outer third of the lung, and a tumor location amenable to sublobar resection, whether wedge or segment, or lobar resection, among other criteria.

In all, 697 patients were randomly assigned to undergo either lobar resection or sublobar resection, of whom 59.1% had wedge resection and 37.9% anatomical segmental resection. The median age was 67.9 years, and 57.4% were female. The vast majority (90%) were White.

After a median follow-up of 7 years, the 5-year disease-free survival was 63.6% with sublobar resection and 64.1% following lobar resection.

The team found that sublobar resection was not inferior to lobectomy for disease-free survival, at a hazard ratio for disease recurrence or death of 1.01 (90% confidence interval, 0.83-1.24), which adjusted to 0.99 after taking into account the site where the patient was treated.

The 5-year overall survival rate was 80.3% after sublobar resection, and 78.9% following lobar resection, at a hazard ratio for death of 0.95 (95% CI, 0.72-1.26).

The results were “generally consistent” when accounting for factors such as age group, sex, tumor location, histologic type, smoking history, tumor size, and ECOG performance status, the team says.

Turning to recurrence, they showed that, among 687 patients eligible for assessment, 30.4% of those in the sublobar resection group and 29.3% of those assigned to lobar resection experienced disease recurrence, with 13.4% and 10%, respectively, having locoregional recurrence.

An exploratory analysis indicated that 5-year recurrence-free survival was similar in the two groups, at 70.2% vs. 71.2% or a hazard ratio for recurrence of 1.05 (95% CI, 0.80-1.39). The cumulative incidence of death was also similar.

It was also notable that reduction in predictive forced expiratory volume in 1 second from baseline was lower with sublobar than lobar resection, at –4.0 vs. –6.0, as was the reduction in predicted forced vital capacity, at –3.0 vs. –5.0.

“Although this difference is arguably not clinically meaningful in this patient population with normal baseline pulmonary functions,” the team writes, “it may be more clinically relevant in patients with compromised pulmonary functions, or in those with lower-lobe disease in whom lobar resection may be associated with greater impairment of pulmonary function.”

Dr. Rusch suggests that “more sensitive or functional assessments” of pulmonary function might include “diffusion capacity and 6-minute walk tests,” although she noted that even short-term differences in pulmonary function “may affect perioperative and functional outcomes, especially for tumors in the lower lobe.”

The study was supported by the National Cancer Institute of the National Institutes of Health, including via grants to the Alliance for Clinical Trials in Oncology and the Canadian Cancer Trials Group, and supported in part by Covidien and Ethicon.

Dr. Altorki reports relationships with AstraZeneca, Genentech, Johnson & Johnson, and Regeneron. Dr. Rusch reports relationships with Cancer Research UK, Genentech, and the National Cancer Institute.

A version of this article first appeared on Medscape.com.

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

The Society of Thoracic Surgeons (STS) and its newly installed president have posted an apology for a speech delivered by its outgoing president that appeared, in part, to disparage affirmative action as a means to promote diversity, equity, and inclusion in the field.

The speech, entitled “Three Score & More,” presented Jan. 22 at the STS 58th annual meeting in San Diego by John H. Calhoon, MD, University of Texas Health Science Center at San Antonio, unleashed a cascade of tweets, some circumspect but many expressing outrage and dismay.

Many of the tweets were from individuals who acknowledged not hearing the speech but who had seen at least one accompanying slide which, by then, had been widely circulated on the platform. It contained phrases such as “Affirmative Action is not equal opportunity” and “Defining people by color, gender, religion only tends to ingrain bias and discrimination,” all under the heading of “Virtuous Ideals.”

Reactions on Twitter included comments such as “This is bad beyond description” and a description of the slide’s content as “the blueprint & thought process for those actively maintaining Whiteness & the Patriarchy in medicine.”

Following an early onslaught of such tweets, the STS and new president Thomas E. MacGillivray, MD, MedStar Health, Washington, issued a statement disowning at least the controversial parts of Dr. Calhoon’s presentation, stating they were “inconsistent with STS’s core values of diversity, equity, and inclusion.”

The post continues, “The STS apologizes for these remarks. We know these comments were hurtful and we regret the pain they have caused to so many valued colleagues.” It then states, “Diversity, equity, and inclusion are central principles of our Society, and what we strive for in our profession and our practice. STS is committed to learning from this experience and taking action to reinforce our commitment to these values.”

“I believe that either the slide and/or my remarks were misinterpreted by some. I don’t want to hurt anybody. I’m profoundly sorry and apologize,” Dr. Calhoon said in an interview.

“I’m proud of my own group’s record on diversity and using equity and inclusion to get there,” he said. “We’re committed to it. We’ve had a wonderfully diverse group. I tried to highlight that in my remarks.”

About the Twitter response to the slide in question, Dr. Calhoon said, “I have no idea how they were thinking.” He added, “I can only comment that I’m really proud of our record and, for that matter, the STS’s record on diversity, equity, and inclusion.”

A version of this article first appeared on Medscape.com.

The Society of Thoracic Surgeons (STS) and its newly installed president have posted an apology for a speech delivered by its outgoing president that appeared, in part, to disparage affirmative action as a means to promote diversity, equity, and inclusion in the field.

The speech, entitled “Three Score & More,” presented Jan. 22 at the STS 58th annual meeting in San Diego by John H. Calhoon, MD, University of Texas Health Science Center at San Antonio, unleashed a cascade of tweets, some circumspect but many expressing outrage and dismay.

Many of the tweets were from individuals who acknowledged not hearing the speech but who had seen at least one accompanying slide which, by then, had been widely circulated on the platform. It contained phrases such as “Affirmative Action is not equal opportunity” and “Defining people by color, gender, religion only tends to ingrain bias and discrimination,” all under the heading of “Virtuous Ideals.”

Reactions on Twitter included comments such as “This is bad beyond description” and a description of the slide’s content as “the blueprint & thought process for those actively maintaining Whiteness & the Patriarchy in medicine.”

Following an early onslaught of such tweets, the STS and new president Thomas E. MacGillivray, MD, MedStar Health, Washington, issued a statement disowning at least the controversial parts of Dr. Calhoon’s presentation, stating they were “inconsistent with STS’s core values of diversity, equity, and inclusion.”

The post continues, “The STS apologizes for these remarks. We know these comments were hurtful and we regret the pain they have caused to so many valued colleagues.” It then states, “Diversity, equity, and inclusion are central principles of our Society, and what we strive for in our profession and our practice. STS is committed to learning from this experience and taking action to reinforce our commitment to these values.”

“I believe that either the slide and/or my remarks were misinterpreted by some. I don’t want to hurt anybody. I’m profoundly sorry and apologize,” Dr. Calhoon said in an interview.

“I’m proud of my own group’s record on diversity and using equity and inclusion to get there,” he said. “We’re committed to it. We’ve had a wonderfully diverse group. I tried to highlight that in my remarks.”

About the Twitter response to the slide in question, Dr. Calhoon said, “I have no idea how they were thinking.” He added, “I can only comment that I’m really proud of our record and, for that matter, the STS’s record on diversity, equity, and inclusion.”

A version of this article first appeared on Medscape.com.

The Society of Thoracic Surgeons (STS) and its newly installed president have posted an apology for a speech delivered by its outgoing president that appeared, in part, to disparage affirmative action as a means to promote diversity, equity, and inclusion in the field.

The speech, entitled “Three Score & More,” presented Jan. 22 at the STS 58th annual meeting in San Diego by John H. Calhoon, MD, University of Texas Health Science Center at San Antonio, unleashed a cascade of tweets, some circumspect but many expressing outrage and dismay.

Many of the tweets were from individuals who acknowledged not hearing the speech but who had seen at least one accompanying slide which, by then, had been widely circulated on the platform. It contained phrases such as “Affirmative Action is not equal opportunity” and “Defining people by color, gender, religion only tends to ingrain bias and discrimination,” all under the heading of “Virtuous Ideals.”

Reactions on Twitter included comments such as “This is bad beyond description” and a description of the slide’s content as “the blueprint & thought process for those actively maintaining Whiteness & the Patriarchy in medicine.”

Following an early onslaught of such tweets, the STS and new president Thomas E. MacGillivray, MD, MedStar Health, Washington, issued a statement disowning at least the controversial parts of Dr. Calhoon’s presentation, stating they were “inconsistent with STS’s core values of diversity, equity, and inclusion.”

The post continues, “The STS apologizes for these remarks. We know these comments were hurtful and we regret the pain they have caused to so many valued colleagues.” It then states, “Diversity, equity, and inclusion are central principles of our Society, and what we strive for in our profession and our practice. STS is committed to learning from this experience and taking action to reinforce our commitment to these values.”

“I believe that either the slide and/or my remarks were misinterpreted by some. I don’t want to hurt anybody. I’m profoundly sorry and apologize,” Dr. Calhoon said in an interview.

“I’m proud of my own group’s record on diversity and using equity and inclusion to get there,” he said. “We’re committed to it. We’ve had a wonderfully diverse group. I tried to highlight that in my remarks.”

About the Twitter response to the slide in question, Dr. Calhoon said, “I have no idea how they were thinking.” He added, “I can only comment that I’m really proud of our record and, for that matter, the STS’s record on diversity, equity, and inclusion.”

A version of this article first appeared on Medscape.com.

Age-related changes in general and cardiovascular health likely require modifications in how acute coronary syndrome (ACS) is diagnosed and managed in adults aged 75 and older, the American Heart Association says in a new scientific statement.

The statement outlines a framework to integrate geriatric risks into the management of ACS, including the diagnostic approach, pharmacotherapy, revascularization strategies, prevention of adverse events, and transition care planning.

The 31-page statement was published online in the AHA journal Circulation (2022 Dec 12. doi: 10.1161/CIR.0000000000001112). It updates a 2007 AHA statement on treatment of ACS in the elderly.
 

Complex patient group

Adults aged 75 and older make up roughly 30%-40% of all hospitalized patients with ACS and the majority of ACS-related deaths occur in this group, the writing group notes.

“Older patients have more pronounced anatomical changes and more severe functional impairment, and they are more likely to have additional health conditions,” writing group chair Abdulla A. Damluji, MD, PhD, director of the Inova Center of Outcomes Research in Fairfax, Va., notes in a news release.

“These include frailty, other chronic disorders (treated with multiple medications), physical dysfunction, cognitive decline and/or urinary incontinence – and these are not regularly studied in the context of ACS,” Dr. Damluji explained.

The writing group notes that the presence of one or more geriatric syndromes may substantially affect ACS clinical presentation, clinical course and prognosis, therapeutic decision-making, and response to treatment.

“It is therefore fundamental that clinicians caring for older patients with ACS be alert to the presence of geriatric syndromes and be able to integrate them into the care plan when appropriate,” they say.

They recommend a holistic, individualized, and patient-centered approach to ACS care in the elderly, taking into consideration coexisting and overlapping health issues.
 

Considerations for clinical care

The AHA statement offers several “considerations for clinical practice” with regard to ACS diagnosis and management in elderly adults. They include:

• ACS presentations without chest pain, such as shortness of breath, syncope, or sudden confusion, are more common in older adults.
• Many older adults have persistent elevations in cardiac troponin levels from myocardial fibrosis and kidney disease that diminish the positive predictive value of high-sensitivity cardiac troponin (hs-cTn) assays for identifying acute and chronic myocardial injury. For this reason, evaluating patterns of rise and fall is essential.
• Age-related changes in metabolism, weight, and muscle mass may require different choices in anticoagulant medications to lower bleeding risk.
• Clopidogrel (Plavix) is the preferred P2Y12 inhibitor because of a significantly lower bleeding profile than ticagrelor (Brilinta) or prasugrel (Effient). For patients with ST-segment myocardial infarction (STEMI) or complex anatomy, the use of ticagrelor is “reasonable.”
• Poor kidney function can increase the risk for contrast-induced acute kidney injury.
• Although the risks are greater, percutaneous coronary intervention or bypass surgery are beneficial in select older adults with ACS.
• Post-MI care should include cardiac rehabilitation tailored to address each patient’s circumstances and personal goals of care.
• For patients with cognitive difficulties and limited mobility, consider simplified medication plans with fewer doses per day and 90-day supplies to prevent the need for frequent refills.
• Patient care plans should be individualized, with input from a multidisciplinary team that may include cardiologists, surgeons, geriatricians, primary care clinicians, nutritionists, social workers, and family members.
• Determine a priori goals of care in older patients to help avoid an unwanted or futile intervention.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Cardiovascular Diseases in Older Populations Committee of the Council on Clinical Cardiology; the Council on Cardiovascular and Stroke Nursing; the Council on Cardiovascular Radiology and Intervention; and the Council on Lifestyle and Cardiometabolic Health.

A version of this article first appeared on Medscape.com.

Age-related changes in general and cardiovascular health likely require modifications in how acute coronary syndrome (ACS) is diagnosed and managed in adults aged 75 and older, the American Heart Association says in a new scientific statement.

The statement outlines a framework to integrate geriatric risks into the management of ACS, including the diagnostic approach, pharmacotherapy, revascularization strategies, prevention of adverse events, and transition care planning.

The 31-page statement was published online in the AHA journal Circulation (2022 Dec 12. doi: 10.1161/CIR.0000000000001112). It updates a 2007 AHA statement on treatment of ACS in the elderly.
 

Complex patient group

Adults aged 75 and older make up roughly 30%-40% of all hospitalized patients with ACS and the majority of ACS-related deaths occur in this group, the writing group notes.

“Older patients have more pronounced anatomical changes and more severe functional impairment, and they are more likely to have additional health conditions,” writing group chair Abdulla A. Damluji, MD, PhD, director of the Inova Center of Outcomes Research in Fairfax, Va., notes in a news release.

“These include frailty, other chronic disorders (treated with multiple medications), physical dysfunction, cognitive decline and/or urinary incontinence – and these are not regularly studied in the context of ACS,” Dr. Damluji explained.

The writing group notes that the presence of one or more geriatric syndromes may substantially affect ACS clinical presentation, clinical course and prognosis, therapeutic decision-making, and response to treatment.

“It is therefore fundamental that clinicians caring for older patients with ACS be alert to the presence of geriatric syndromes and be able to integrate them into the care plan when appropriate,” they say.

They recommend a holistic, individualized, and patient-centered approach to ACS care in the elderly, taking into consideration coexisting and overlapping health issues.
 

Considerations for clinical care

The AHA statement offers several “considerations for clinical practice” with regard to ACS diagnosis and management in elderly adults. They include:

• ACS presentations without chest pain, such as shortness of breath, syncope, or sudden confusion, are more common in older adults.
• Many older adults have persistent elevations in cardiac troponin levels from myocardial fibrosis and kidney disease that diminish the positive predictive value of high-sensitivity cardiac troponin (hs-cTn) assays for identifying acute and chronic myocardial injury. For this reason, evaluating patterns of rise and fall is essential.
• Age-related changes in metabolism, weight, and muscle mass may require different choices in anticoagulant medications to lower bleeding risk.
• Clopidogrel (Plavix) is the preferred P2Y12 inhibitor because of a significantly lower bleeding profile than ticagrelor (Brilinta) or prasugrel (Effient). For patients with ST-segment myocardial infarction (STEMI) or complex anatomy, the use of ticagrelor is “reasonable.”
• Poor kidney function can increase the risk for contrast-induced acute kidney injury.
• Although the risks are greater, percutaneous coronary intervention or bypass surgery are beneficial in select older adults with ACS.
• Post-MI care should include cardiac rehabilitation tailored to address each patient’s circumstances and personal goals of care.
• For patients with cognitive difficulties and limited mobility, consider simplified medication plans with fewer doses per day and 90-day supplies to prevent the need for frequent refills.
• Patient care plans should be individualized, with input from a multidisciplinary team that may include cardiologists, surgeons, geriatricians, primary care clinicians, nutritionists, social workers, and family members.
• Determine a priori goals of care in older patients to help avoid an unwanted or futile intervention.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Cardiovascular Diseases in Older Populations Committee of the Council on Clinical Cardiology; the Council on Cardiovascular and Stroke Nursing; the Council on Cardiovascular Radiology and Intervention; and the Council on Lifestyle and Cardiometabolic Health.

A version of this article first appeared on Medscape.com.

Age-related changes in general and cardiovascular health likely require modifications in how acute coronary syndrome (ACS) is diagnosed and managed in adults aged 75 and older, the American Heart Association says in a new scientific statement.

The statement outlines a framework to integrate geriatric risks into the management of ACS, including the diagnostic approach, pharmacotherapy, revascularization strategies, prevention of adverse events, and transition care planning.

The 31-page statement was published online in the AHA journal Circulation (2022 Dec 12. doi: 10.1161/CIR.0000000000001112). It updates a 2007 AHA statement on treatment of ACS in the elderly.
 

Complex patient group

Adults aged 75 and older make up roughly 30%-40% of all hospitalized patients with ACS and the majority of ACS-related deaths occur in this group, the writing group notes.

“Older patients have more pronounced anatomical changes and more severe functional impairment, and they are more likely to have additional health conditions,” writing group chair Abdulla A. Damluji, MD, PhD, director of the Inova Center of Outcomes Research in Fairfax, Va., notes in a news release.

“These include frailty, other chronic disorders (treated with multiple medications), physical dysfunction, cognitive decline and/or urinary incontinence – and these are not regularly studied in the context of ACS,” Dr. Damluji explained.

The writing group notes that the presence of one or more geriatric syndromes may substantially affect ACS clinical presentation, clinical course and prognosis, therapeutic decision-making, and response to treatment.

“It is therefore fundamental that clinicians caring for older patients with ACS be alert to the presence of geriatric syndromes and be able to integrate them into the care plan when appropriate,” they say.

They recommend a holistic, individualized, and patient-centered approach to ACS care in the elderly, taking into consideration coexisting and overlapping health issues.
 

Considerations for clinical care

The AHA statement offers several “considerations for clinical practice” with regard to ACS diagnosis and management in elderly adults. They include:

• ACS presentations without chest pain, such as shortness of breath, syncope, or sudden confusion, are more common in older adults.
• Many older adults have persistent elevations in cardiac troponin levels from myocardial fibrosis and kidney disease that diminish the positive predictive value of high-sensitivity cardiac troponin (hs-cTn) assays for identifying acute and chronic myocardial injury. For this reason, evaluating patterns of rise and fall is essential.
• Age-related changes in metabolism, weight, and muscle mass may require different choices in anticoagulant medications to lower bleeding risk.
• Clopidogrel (Plavix) is the preferred P2Y12 inhibitor because of a significantly lower bleeding profile than ticagrelor (Brilinta) or prasugrel (Effient). For patients with ST-segment myocardial infarction (STEMI) or complex anatomy, the use of ticagrelor is “reasonable.”
• Poor kidney function can increase the risk for contrast-induced acute kidney injury.
• Although the risks are greater, percutaneous coronary intervention or bypass surgery are beneficial in select older adults with ACS.
• Post-MI care should include cardiac rehabilitation tailored to address each patient’s circumstances and personal goals of care.
• For patients with cognitive difficulties and limited mobility, consider simplified medication plans with fewer doses per day and 90-day supplies to prevent the need for frequent refills.
• Patient care plans should be individualized, with input from a multidisciplinary team that may include cardiologists, surgeons, geriatricians, primary care clinicians, nutritionists, social workers, and family members.
• Determine a priori goals of care in older patients to help avoid an unwanted or futile intervention.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Cardiovascular Diseases in Older Populations Committee of the Council on Clinical Cardiology; the Council on Cardiovascular and Stroke Nursing; the Council on Cardiovascular Radiology and Intervention; and the Council on Lifestyle and Cardiometabolic Health.

A version of this article first appeared on Medscape.com.